5383铝合金再结晶全图
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摘要
本文在研究温度、变形量对5383合金再结晶退火后晶粒大小的影响基础上,绘制了5383再结晶全图。讨论了温度、变形量对再结晶晶粒大小的影响,同时得出了5383铝合金的等温再结晶动力曲线。
The effect of temperature and deformation on grain size of recrystallization after annealing treatment of 5383 aluminum alloy was researched, and on this basis, the recrystallization diagram of 5383 aluminum alloy was depicted in the paper. The isothermal kinetic curve of 5383 aluminum alloy was obtained as well.
The effect of temperature and deformation on grain size of recrystallization after annealing treatment of 5383 aluminum alloy was researched, and on this basis, the recrystallization diagram of 5383 aluminum alloy was depicted in the paper. The isothermal kinetic curve of 5383 aluminum alloy was obtained as well.
引文
[1]Popovic M,Romhanji E.Stress corrosion cracking susceptibility of Al-Mg alloy sheet with high Mg content[J].Journal of Materials Processing Technology,2002,76(125/126):275-280
[2]Chang J C,Chuang T H.Stress-corrosion cracking susceptibility of the superplastically formed 5083 aluminum alloy in 3.5%NaCl solution[J].Metallurgical and Materials Transaction A:Physical Metallurgy and Materials Science,1999,30(12):3191-3199
[3]Jones R H,Baer D R,Danielson M J,et al.Role of Mg in the stress corrosion cracking of an Al-Mg alloy[J].Metallurgical and Materials Transactions a:Physical Metallurgy and Materials Science,200132(7):1699-1711
[4]王国军.5383-H321铝合金板材稳定化热处理制度的确定[C].第十二届中国有色金属协会材料科学与合金加工学术研讨汇集,2007:1-2
[5]Popovic M,Romhanji E.Stress corrosion cracking susceptibility of Al-Mg all-oy sheet with high Mg content[J]Journal of Materials Processing Technology,2002,76(126/126):275-280
[6]张珂.5083H116合金板材生产工艺优化与组织性能研究[D].重庆大学,2009.DOI:10.7666/d.y1662987
[7]王树滨.列车车厢用5383铝合金板材相组成的确定[J].黑龙江冶金,2008,(3):4-5
[8]雷正平,王国军,徐忠艳.5383铝合金热轧工艺的确定[J].轻合金加工技术,2007,(08):39-41+57
[9]张德芬,胡卓超,左良,王福.3004铝合金再结晶织构及其显微组织[J].东北大学学报,2004,(9):841-843
[10]张辉,彭大暑,杨立斌,孟力平.5182铝合金热轧再结晶模型[J].金属热处理,2000(12):21-23
[11]蒋福林,张辉,孟春标,李落星.3104铝合金高温热压缩过程的再结晶[J].材料热处理学报,2011,(3):52-55
[12]Carroll M C,Buchheit R G,Daehn G S,et al..Optimum trace copper levels for SCC Resistance in a Zn-Modified Al-5083 Alloy and the effect of active chlorine in seawater[J].Electrochemistry,2003,9(1):60-65
[13]M.J.Starink,A.M.ZAHRA.β'andβprecipitation in an Al-Mg alloy studied by DSC and TEM[J].Acta mater.Vol.46,No.10,pp.3381-3397,1998
[14]Shigenori A.Takeyoshi D,Keisuke Y.Modeling of multistage rolling with different equation[J].Light Material,1989,39:94-99
[15]占戈,罗兵辉,等.退火温度对冷轧5383铝合金组织及腐蚀性能的影响[J].铝加工2012,(6):16-20
[16]李松瑞,周善出.金属热处理[M].长沙:中南大学出版社,2003:44-45
[17]郑子樵.材料科学基础[M].长沙:中南大学出版社2005:400-401
[2]Chang J C,Chuang T H.Stress-corrosion cracking susceptibility of the superplastically formed 5083 aluminum alloy in 3.5%NaCl solution[J].Metallurgical and Materials Transaction A:Physical Metallurgy and Materials Science,1999,30(12):3191-3199
[3]Jones R H,Baer D R,Danielson M J,et al.Role of Mg in the stress corrosion cracking of an Al-Mg alloy[J].Metallurgical and Materials Transactions a:Physical Metallurgy and Materials Science,200132(7):1699-1711
[4]王国军.5383-H321铝合金板材稳定化热处理制度的确定[C].第十二届中国有色金属协会材料科学与合金加工学术研讨汇集,2007:1-2
[5]Popovic M,Romhanji E.Stress corrosion cracking susceptibility of Al-Mg all-oy sheet with high Mg content[J]Journal of Materials Processing Technology,2002,76(126/126):275-280
[6]张珂.5083H116合金板材生产工艺优化与组织性能研究[D].重庆大学,2009.DOI:10.7666/d.y1662987
[7]王树滨.列车车厢用5383铝合金板材相组成的确定[J].黑龙江冶金,2008,(3):4-5
[8]雷正平,王国军,徐忠艳.5383铝合金热轧工艺的确定[J].轻合金加工技术,2007,(08):39-41+57
[9]张德芬,胡卓超,左良,王福.3004铝合金再结晶织构及其显微组织[J].东北大学学报,2004,(9):841-843
[10]张辉,彭大暑,杨立斌,孟力平.5182铝合金热轧再结晶模型[J].金属热处理,2000(12):21-23
[11]蒋福林,张辉,孟春标,李落星.3104铝合金高温热压缩过程的再结晶[J].材料热处理学报,2011,(3):52-55
[12]Carroll M C,Buchheit R G,Daehn G S,et al..Optimum trace copper levels for SCC Resistance in a Zn-Modified Al-5083 Alloy and the effect of active chlorine in seawater[J].Electrochemistry,2003,9(1):60-65
[13]M.J.Starink,A.M.ZAHRA.β'andβprecipitation in an Al-Mg alloy studied by DSC and TEM[J].Acta mater.Vol.46,No.10,pp.3381-3397,1998
[14]Shigenori A.Takeyoshi D,Keisuke Y.Modeling of multistage rolling with different equation[J].Light Material,1989,39:94-99
[15]占戈,罗兵辉,等.退火温度对冷轧5383铝合金组织及腐蚀性能的影响[J].铝加工2012,(6):16-20
[16]李松瑞,周善出.金属热处理[M].长沙:中南大学出版社,2003:44-45
[17]郑子樵.材料科学基础[M].长沙:中南大学出版社2005:400-401